#include <iostream>
#include <iomanip>
using std::cout;
using std::endl;

#include "tmvaglob.C"

#include "RQ_OBJECT.h"

#include "TH1.h"
#include "TROOT.h"
#include "TList.h"
#include "TIterator.h"
#include "TStyle.h"
#include "TPad.h"
#include "TCanvas.h"
#include "TLatex.h"
#include "TLegend.h"
#include "TLine.h"
#include "TH2.h"
#include "TFormula.h"
#include "TFile.h"
#include "TApplication.h"
#include "TKey.h"
#include "TClass.h"
#include "TGaxis.h"

#include "TGWindow.h"
#include "TGButton.h"
#include "TGLabel.h"
#include "TGNumberEntry.h"

// this macro plots the signal and background efficiencies
// as a function of the MVA cut.

enum PlotType { EffPurity = 0 };

class MethodInfo : public TNamed {
public:
   MethodInfo() :
      methodName(""),
      methodTitle(""),
      sig(0),
      bgd(0),
      origSigE(0),
      origBgdE(0),
      sigE(0),
      bgdE(0),
      purS(0),
      purB(0),
      sSig(0),
      effpurS(0),
      effpurB(0),
      canvas(0),
      line1(0),
      line2(0),
      rightAxis(0),
      maxSignificance(0),
	purB_(-1e0)
   {}
   virtual ~MethodInfo();

   TString  methodName;
   TString  methodTitle;
   TH1*     sig;
   TH1*     bgd;
   TH1*     origSigE;
   TH1*     origBgdE;
   TH1*     sigE;
   TH1*     bgdE;
   TH1*     purS, *purB;
   TH1*     sSig;    
   TH1*     effpurS, *effpurB;
   TCanvas* canvas;
   TLatex*  line1;
   TLatex*  line2;
   TGaxis*  rightAxis;
   Double_t maxSignificance; 
   double purB_;	

   void SetResultHists() 
   {
      TString pname    = "purS_"         + methodTitle;
      TString epname   = "effpurS_"      + methodTitle;
      TString pnameB    = "purB_"         + methodTitle;
      TString epnameB   = "effpurB_"      + methodTitle;
      TString ssigname = "significance_" + methodTitle;

      sigE = (TH1*)origSigE->Clone("sigEffi");
      bgdE = (TH1*)origBgdE->Clone("bgdEffi");

///Calculate 'before-cut' efficiencies

  TH1 *    sigEUnity = (TH1*)origSigE->Clone("sigEffiUnity");
  TH1 *    bgdEUnity = (TH1*)origBgdE->Clone("bgdEffiUnity");

for (Int_t i=1; i<=sigEUnity->GetNbinsX();i++)sigEUnity->SetBinContent(i,1e0);
for (Int_t i=1; i<=bgdEUnity->GetNbinsX();i++)bgdEUnity->SetBinContent(i,1e0);


      TH1 * sigETemp = (TH1*)origSigE->Clone("sigEffiTemp");
      TH1 * bgdETemp = (TH1*)origBgdE->Clone("bgdEffiTemp");

sigE->Add(sigEUnity,sigETemp,1e0,-1e0);      
bgdE->Add(bgdEUnity,bgdETemp,1e0,-1e0);      


////END
      Int_t nbins = sigE->GetNbinsX();
      Double_t low = sigE->GetBinLowEdge(1);
      Double_t high = sigE->GetBinLowEdge(nbins+1);
      purS    = new TH1F(pname, pname, nbins, low, high);
      purB    = new TH1F(pnameB, pnameB, nbins, low, high);
      sSig    = new TH1F(ssigname, ssigname, nbins, low, high);
      effpurS = new TH1F(epname, epname, nbins, low, high);        
      effpurB = new TH1F(epnameB, epnameB, nbins, low, high);        

      // chop off useless stuff
      sigE->SetTitle( Form(" \'Before-Cut\' efficiencies for %s classifier", methodTitle.Data()) );
         
      // set the histogram style
      TMVAGlob::SetSignalAndBackgroundStyle( sigE, bgdE );
      TMVAGlob::SetSignalAndBackgroundStyle( purS, bgdE );
      TMVAGlob::SetSignalAndBackgroundStyle( effpurS, bgdE );
      TMVAGlob::SetSignalAndBackgroundStyle(sigE, purB );
      TMVAGlob::SetSignalAndBackgroundStyle(sigE, effpurB );
      sigE->SetFillStyle( 0 );
      bgdE->SetFillStyle( 0 );
      sSig->SetFillStyle( 0 );
      sigE->SetLineWidth( 3 );
      bgdE->SetLineWidth( 3 );
      sSig->SetLineWidth( 3 );

      // the purity and quality
      purS->SetFillStyle( 0 );
      purS->SetLineWidth( 2 );
      purS->SetLineStyle( 5 );
      effpurS->SetFillStyle( 0 );
      effpurS->SetLineWidth( 2 );
      effpurS->SetLineStyle( 6 );


      purB->SetFillStyle( 0 );
      purB->SetLineWidth( 2 );
      purB->SetLineStyle( 5 );
      effpurB->SetFillStyle( 0 );
      effpurB->SetLineWidth( 2 );
      effpurB->SetLineStyle( 6 );


   }

   ClassDef(MethodInfo,0)
};

MethodInfo::~MethodInfo() 
{
   delete sigE;
   delete bgdE;
   delete purS;
   delete sSig;
   delete effpurS;
   if(gROOT->GetListOfCanvases()->FindObject(canvas))
      delete canvas;
}

class StatDialogMVAEffs {  

   RQ_OBJECT("StatDialogMVAEffs")
      
public:

   StatDialogMVAEffs(const TGWindow* p, Float_t ns, Float_t nb);
   virtual ~StatDialogMVAEffs();
   
   void SetFormula(const TString& f) { fFormula = f; }
   TString GetFormula();
   TString GetLatexFormula();
   
   void ReadHistograms(TFile* file);
   void UpdateSignificanceHists();
   void DrawHistograms();

   void RaiseDialog() { if (fMain) { fMain->RaiseWindow(); fMain->Layout(); fMain->MapWindow(); } }

private:

   TGMainFrame *fMain;
   Float_t fNSignal;
   Float_t fNBackground;  
   TString fFormula;
   TList * fInfoList;

   TGNumberEntry* fSigInput;
   TGNumberEntry* fBkgInput;

   TGHorizontalFrame* fButtons;
   TGTextButton* fDrawButton;
   TGTextButton* fCloseButton;

   Int_t maxLenTitle;

   void UpdateCanvases();
	double purB_;
public:

   // slots
   void SetNSignal(); //*SIGNAL*
   void SetNBackground(); //*SIGNAL*
   void Redraw(); //*SIGNAL*
   void Close(); //*SIGNAL*
   void SetBkgPurity(double purB) {purB_=purB; return;} 

   // result printing
   void PrintResults( const MethodInfo* info, double bkgPur=-1e0);
};

void StatDialogMVAEffs::SetNSignal() 
{
   fNSignal = fSigInput->GetNumber();
}

void StatDialogMVAEffs::SetNBackground() 
{
   fNBackground = fBkgInput->GetNumber();
}

TString StatDialogMVAEffs::GetFormula() 
{
   TString f = fFormula;
   f.ReplaceAll("S","x");
   f.ReplaceAll("B","y");
   return f;
}

TString StatDialogMVAEffs::GetLatexFormula() 
{
   TString f = fFormula;
   f.ReplaceAll("(","{");
   f.ReplaceAll(")","}");
   f.ReplaceAll("sqrt","#sqrt");
   return f;
}

void StatDialogMVAEffs::Redraw() 
{
   UpdateSignificanceHists();
   UpdateCanvases();
}

void StatDialogMVAEffs::Close() 
{
   delete this;
}

StatDialogMVAEffs::~StatDialogMVAEffs() 
{
   if (fInfoList) { 
      TIter next(fInfoList);
      MethodInfo *info(0);
      while ( (info = (MethodInfo*)next()) ) {
         delete info;
      }
      delete fInfoList;
      fInfoList=0;
   }


   fSigInput->Disconnect();
   fBkgInput->Disconnect();
   fDrawButton->Disconnect();
   fCloseButton->Disconnect();

   fMain->CloseWindow();
   fMain->Cleanup();
   fMain = 0;
}

StatDialogMVAEffs::StatDialogMVAEffs(const TGWindow* p, Float_t ns, Float_t nb) :
   fNSignal(ns),
   fNBackground(nb),
   fFormula(""),
   fInfoList(0),
   fSigInput(0),
   fBkgInput(0),
   fButtons(0),
   fDrawButton(0),
   fCloseButton(0),
   maxLenTitle(0),
purB_(-1e0)
{
   UInt_t totalWidth  = 500;
   UInt_t totalHeight = 300;

   // main frame
   fMain = new TGMainFrame(p, totalWidth, totalHeight, kMainFrame | kVerticalFrame);

   TGLabel *sigLab = new TGLabel(fMain,"Signal events");
   fMain->AddFrame(sigLab, new TGLayoutHints(kLHintsLeft | kLHintsTop,5,5,5,5));

   fSigInput = new TGNumberEntry(fMain, (Double_t) fNSignal,5,-1,(TGNumberFormat::EStyle) 5);
   fSigInput->SetLimits(TGNumberFormat::kNELLimitMin,0,1);
   fMain->AddFrame(fSigInput, new TGLayoutHints(kLHintsLeft | kLHintsTop,5,5,5,5));
   fSigInput->Resize(100,24);

   TGLabel *bkgLab = new TGLabel(fMain, "Background events");
   fMain->AddFrame(bkgLab, new TGLayoutHints(kLHintsLeft | kLHintsTop,5,5,5,5));

   fBkgInput = new TGNumberEntry(fMain, (Double_t) fNBackground,5,-1,(TGNumberFormat::EStyle) 5);
   fBkgInput->SetLimits(TGNumberFormat::kNELLimitMin,0,1);
   fMain->AddFrame(fBkgInput, new TGLayoutHints(kLHintsLeft | kLHintsTop,5,5,5,5));
   fBkgInput->Resize(100,24);

   fButtons = new TGHorizontalFrame(fMain, totalWidth,30);

   fCloseButton = new TGTextButton(fButtons,"&Close");
   fButtons->AddFrame(fCloseButton, new TGLayoutHints(kLHintsLeft | kLHintsTop));

   fDrawButton = new TGTextButton(fButtons,"&Draw");
   fButtons->AddFrame(fDrawButton, new TGLayoutHints(kLHintsRight | kLHintsTop,15));
  
   fMain->AddFrame(fButtons,new TGLayoutHints(kLHintsLeft | kLHintsBottom,5,5,5,5));

   fMain->SetWindowName("Significance");
   fMain->SetWMPosition(0,0);
   fMain->MapSubwindows();
   fMain->Resize(fMain->GetDefaultSize());
   fMain->MapWindow();

   fSigInput->Connect("ValueSet(Long_t)","StatDialogMVAEffs",this, "SetNSignal()");
   fBkgInput->Connect("ValueSet(Long_t)","StatDialogMVAEffs",this, "SetNBackground()");

   fDrawButton->Connect("Clicked()","TGNumberEntry",fSigInput, "ValueSet(Long_t)");
   fDrawButton->Connect("Clicked()","TGNumberEntry",fBkgInput, "ValueSet(Long_t)");
   fDrawButton->Connect("Clicked()", "StatDialogMVAEffs", this, "Redraw()");   

   fCloseButton->Connect("Clicked()", "StatDialogMVAEffs", this, "Close()");
}

void StatDialogMVAEffs::UpdateCanvases() 
{
   if (fInfoList==0) return;
   if (fInfoList->First()==0) return;
   MethodInfo* info = (MethodInfo*)fInfoList->First();
   if ( info->canvas==0 ) {
      DrawHistograms();
      return;
   }
   TIter next(fInfoList);
   while ( (info = (MethodInfo*)next()) ) {
      info->canvas->Update();
      info->rightAxis->SetWmax(1.1*info->maxSignificance);
      info->canvas->Modified(kTRUE);
      info->canvas->Update();
      info->canvas->Paint();
   }
}

void StatDialogMVAEffs::UpdateSignificanceHists() 
{
   TFormula f("sigf",GetFormula());
   TIter next(fInfoList);
   MethodInfo* info(0);
   TString cname = "Classifier";
   if (cname.Length() >  maxLenTitle)  maxLenTitle = cname.Length();


   TString str = Form( "%s   (  #signal, #backgr.)  Optimal-cut  %s      NSig      NBkg   EffSig   EffBkg", 
                        cname.Data(), fFormula.Data() );
   cout << "--- " << setfill('=') << setw(str.Length()) << "" << setfill(' ') << endl;
   cout << "--- " << str << endl;
   cout << "--- " << setfill('-') << setw(str.Length()) << "" << setfill(' ') << endl;
   while ((info = (MethodInfo*)next())) {
      for (Int_t i=1; i<=info->origSigE->GetNbinsX(); i++) {

///Calculate 'before-cut' efficiencies


         Float_t eS = 1e0 - info->origSigE->GetBinContent( i );
         Float_t S = eS * fNSignal;
         Float_t B = (1e0- info->origBgdE->GetBinContent( i )) * fNBackground;
         info->purS->SetBinContent( i, (S+B==0)?0:S/(S+B) );
         info->purB->SetBinContent( i, (S+B==0)?0:B/(S+B) );

//TFormula f("sigf",GetFormula());
//	cout<<"f.Eval(S,B) = "<<f.Eval(S,B)<<endl;
         info->sSig->SetBinContent( i, f.Eval(S,B) );
         info->effpurS->SetBinContent( i, eS*info->purS->GetBinContent( i ) );
         info->effpurB->SetBinContent( i, (1e0- info->origBgdE->GetBinContent( i ))*info->purB->GetBinContent( i ) );
///END
      }
      
      info->maxSignificance = info->sSig->GetMaximum();
      info->sSig->Scale(1/info->maxSignificance);

      // update the text in the lower left corner
      PrintResults( info,purB_ );
   }
   cout << "--- " << setfill('-') << setw(str.Length()) << "" << setfill(' ') << endl << endl;
}

void StatDialogMVAEffs::ReadHistograms(TFile* file) 
{
   if (fInfoList) { 
      TIter next(fInfoList);
      MethodInfo *info(0);
      while ( (info = (MethodInfo*)next()) ) {
         delete info;
      }
      delete fInfoList;
      fInfoList=0;
   }
   fInfoList = new TList;

   // search for the right histograms in full list of keys
   TIter next(file->GetListOfKeys());
   TKey *key(0);   
   while( (key = (TKey*)next()) ) {

      if (!TString(key->GetName()).BeginsWith("Method_")) continue;
      if( ! gROOT->GetClass(key->GetClassName())->InheritsFrom("TDirectory") ) continue;

      cout << "--- Found directory: " << ((TDirectory*)key->ReadObj())->GetName() << endl;

      TDirectory* mDir = (TDirectory*)key->ReadObj();

      TIter keyIt(mDir->GetListOfKeys());
      TKey *titkey;
      while((titkey = (TKey*)keyIt())) {
        if( ! gROOT->GetClass(titkey->GetClassName())->InheritsFrom("TDirectory") ) continue;
        
        MethodInfo* info = new MethodInfo();
        TDirectory* titDir = (TDirectory *)titkey->ReadObj();

        TMVAGlob::GetMethodName(info->methodName,key);
        TMVAGlob::GetMethodTitle(info->methodTitle,titDir);        
        if (info->methodTitle.Length() > maxLenTitle) maxLenTitle = info->methodTitle.Length();
        TString hname = "MVA_" + info->methodTitle;
        
        cout << "--- Classifier: " << info->methodTitle << endl;
        
        info->sig = dynamic_cast<TH1*>(titDir->Get( hname + "_S" ));
        info->bgd = dynamic_cast<TH1*>(titDir->Get( hname + "_B" ));
        info->origSigE = dynamic_cast<TH1*>(titDir->Get( hname + "_effS" ));
        info->origBgdE = dynamic_cast<TH1*>(titDir->Get( hname + "_effB" ));      
        if (info->origSigE==0 || info->origBgdE==0) { delete info; continue; }

        info->SetResultHists();
        fInfoList->Add(info);
      }
   }
   return;
}

void StatDialogMVAEffs::DrawHistograms() 
{
   // counter variables
   Int_t countCanvas = 0;

   // define Canvas layout here!
   const Int_t width = 600;   // size of canvas
   Int_t signifColor = TColor::GetColor( "#00aa00" );

   TIter next(fInfoList);
   MethodInfo* info(0);
   while ( (info = (MethodInfo*)next()) ) {

      // create new canvas
      TCanvas *c = new TCanvas( Form("canvas%d", countCanvas+1), 
                                Form("\'Before-Cut\' efficiencies for %s classifier",info->methodTitle.Data()), 
                                countCanvas*50+200, countCanvas*20, width, Int_t(width*0.78) ); 
      info->canvas = c;

      // draw grid
      c->SetGrid(1);
      c->SetTickx(0);
      c->SetTicky(0);

      TStyle *TMVAStyle = gROOT->GetStyle("Plain"); // our style is based on Plain
      TMVAStyle->SetLineStyleString( 5, "[32 22]" );
      TMVAStyle->SetLineStyleString( 6, "[12 22]" );
         
      c->SetTopMargin(.2);
      
      // and the signal purity and quality
      info->effpurS->SetTitle("\'Before - Cut\' efficiencies and optimal cut value");
      if (info->methodTitle.Contains("Cuts")){
	info->effpurS->GetXaxis()->SetTitle( "Signal Efficiency" );
      }
      else {
	info->effpurS->GetXaxis()->SetTitle( info->methodTitle + " output" );
      }
      info->effpurS->GetYaxis()->SetTitle( "Efficiency (Purity)" );
      TMVAGlob::SetFrameStyle( info->effpurS );

      c->SetTicks(0,0);
      c->SetRightMargin ( 2.0 );

      info->effpurS->SetMaximum(1.1);

      info->effpurS->Draw("histl");
      info->purS->Draw("samehistl");      
      info->purB->Draw("samehistl");      
      info->effpurB->Draw("samehistl");      

      // overlay signal and background histograms
      info->sigE->Draw("samehistl");
      info->bgdE->Draw("samehistl");

      info->sSig->SetLineColor( signifColor );
      info->sSig->Draw("samehistl");

      // redraw axes
      info->effpurS->Draw( "sameaxis" );

      // Draw legend               
      TLegend *legend1= new TLegend( c->GetLeftMargin(), 1 - c->GetTopMargin(), 
                                     c->GetLeftMargin() + 0.4, 1 - c->GetTopMargin() + 0.12 );
      legend1->SetFillStyle( 1 );
      legend1->AddEntry(info->sigE,"Signal efficiency","L");
      legend1->AddEntry(info->bgdE,"Background efficiency","L");
      legend1->Draw("same");
      legend1->SetBorderSize(1);
      legend1->SetMargin( 0.3 );

      TLegend *legend2= new TLegend( c->GetLeftMargin() + 0.4, 1 - c->GetTopMargin(), 
                                     1 - c->GetRightMargin(), 1 - c->GetTopMargin() + 0.12 );
      legend2->SetFillStyle( 1 );
      legend2->AddEntry(info->purS,"Signal purity","L");
      legend2->AddEntry(info->effpurS,"Signal efficiency*purity","L");
      legend2->AddEntry(info->purB,"Background purity","L");
      legend2->AddEntry(info->effpurB,"Background efficiency*purity","L");

      legend2->AddEntry(info->sSig,Form("%s",fFormula.Data()),"L");
      legend2->Draw("same");
      legend2->SetBorderSize(1);
      legend2->SetMargin( 0.3 );
         
      // line to indicate maximum efficiency
      TLine* effline = new TLine( info->sSig->GetXaxis()->GetXmin(), 1, info->sSig->GetXaxis()->GetXmax(), 1 );
      effline->SetLineWidth( 1 );
      effline->SetLineColor( 1 );
      effline->Draw();

      // print comments
      TLatex tl;
      tl.SetNDC();

      tl.SetTextSize( 0.033 );
      Int_t maxbin ;
      Double_t maxSignif;

Float_t eS;
 Float_t S;
 Float_t B;


	if (purB_<0 ) {
	maxbin= info->sSig->GetMaximumBin();
	maxSignif=info->maxSignificance;

      eS = 1e0 - info->origSigE->GetBinContent( maxbin );
          S = eS * fNSignal;
          B = (1e0- info->origBgdE->GetBinContent( maxbin )) * fNBackground;


	}
else {
///Find the bin for bkgPurtity

  TH1 * purB = info->purB;
        for (Int_t i=1; i<purB->GetNbinsX();i++) {
                double content = purB->GetBinContent(i);
                if (content<purB_ && i!=1) { 
			maxbin=i-1; 
				break; 
		}

        }

      eS = 1e0 - info->origSigE->GetBinContent( maxbin );
          S = eS * fNSignal;
          B = (1e0- info->origBgdE->GetBinContent( maxbin )) * fNBackground;


TFormula f("sigf",GetFormula());
     maxSignif=f.Eval(S,B);
//      cout<<"maxSignif = "<<f.Eval(S,B)<<endl;

}

      info->line1 = tl.DrawLatex( 0.15, 0.23, Form("For %1.0f signal and %1.0f background", fNSignal, fNBackground));
      tl.DrawLatex( 0.15, 0.19, Form("events the  %s is",GetLatexFormula().Data()));
      info->line2 = tl.DrawLatex( 0.15, 0.15, Form("%3.4f when cutting at %3.4f",
                                             maxSignif, 
                                             info->sSig->GetXaxis()->GetBinCenter(maxbin)) );
      // add comment for Method cuts
      if (info->methodTitle.Contains("Cuts")){
	tl.DrawLatex( 0.13, 0.77, "Method Cuts provides a bundle of cut selections, each tuned to a");
	tl.DrawLatex(0.13, 0.74, "different signal efficiency. Shown is the purity for each cut selection.");
      }
      // save canvas to file
      c->Update();

      // Draw second axes
      info->rightAxis = new TGaxis(c->GetUxmax(), c->GetUymin(),
                                   c->GetUxmax(), c->GetUymax(),0,1.1*info->maxSignificance,510,"+L");
      info->rightAxis->SetLineColor ( signifColor );
      info->rightAxis->SetLabelColor( signifColor );
      info->rightAxis->SetTitleColor( signifColor );

      info->rightAxis->SetTitleSize( info->sSig->GetXaxis()->GetTitleSize() );
      info->rightAxis->SetTitle( "Significance" );
      info->rightAxis->Draw();

      c->Update();

      // switches
      const Bool_t Save_Images = kTRUE;

      if (Save_Images) {
         TMVAGlob::imgconv( c, Form("plots/mvaeffs_%s", info->methodTitle.Data()) ); 
      }
      countCanvas++;
   }
}

void StatDialogMVAEffs::PrintResults( const MethodInfo* info, double bkgPurity)
{
   Int_t maxbin ;
   double  maxSignif;	
 Float_t eS;
 Float_t S;
 Float_t B;

    if (bkgPurity<0) {
		maxbin= info->sSig->GetMaximumBin();
		maxSignif = info->maxSignificance;

          eS = 1e0 - info->origSigE->GetBinContent( maxbin );
          S = eS * fNSignal;
          B = (1e0- info->origBgdE->GetBinContent( maxbin )) * fNBackground;

}
     else {
///Find the bin for bkgPurtity

  TH1 * purB = info->purB;


	for (Int_t i=1; i<purB->GetNbinsX();i++) { 
		double content = purB->GetBinContent(i);

//				cout<<"content = "<<content<<endl;

		if (content<bkgPurity && i!=1 ) { 
				maxbin=i-1; 
//			cout<<"maxbin = "<<maxbin<<endl;

				break; 
				}
 
	}


          eS = 1e0 - info->origSigE->GetBinContent( maxbin );
          S = eS * fNSignal;
          B = (1e0- info->origBgdE->GetBinContent( maxbin )) * fNBackground;


//	maxSignif=info->sSig->GetBinContent(maxbin);
//	cout<<"maxSignif = "<<maxSignif<<endl;

TFormula f("sigf",GetFormula());
     maxSignif=f.Eval(S,B);
//      cout<<"maxSignif = "<<f.Eval(S,B)<<endl;

}


   if (info->line1 !=0 )
      info->line1->SetText( 0.15, 0.23, Form("For %1.0f signal and %1.0f background", fNSignal, fNBackground));
   
   if (info->line2 !=0 ) {
//      Int_t maxbin = info->sSig->GetMaximumBin();
      info->line2->SetText( 0.15, 0.15, Form("%3.4f when cutting at %3.4f", info->maxSignificance, 
                                             info->sSig->GetXaxis()->GetBinCenter(maxbin)) );
   }

//	cout<<"maxbin = "<<maxbin<<endl;
//	cout<<"maxSignif = "<<maxSignif<<endl;



   TString opt = Form( "%%%is:  (%%9.8g,%%9.8g)    %%9.4f   %%10.6g  %%8.7g  %%8.7g %%8.4g %%8.4g", 
                       maxLenTitle );
   cout << "--- " 
        << Form( opt.Data(),
                 info->methodTitle.Data(), fNSignal, fNBackground, 
                 info->sSig->GetXaxis()->GetBinCenter( maxbin ),
                 maxSignif,
                 S,   
                 B,
                 1e0-info->origSigE->GetBinContent( maxbin ),
                 1e0-info->origBgdE->GetBinContent( maxbin ) )
        << endl;
}

void mvaeffs_beforecut( TString fin = "TMVA.root", 
	TString formula="S/sqrt(S+B)",
         TString purB="-1",
         Bool_t useTMVAStyle = kTRUE

	)
{
   TMVAGlob::Initialize( useTMVAStyle );

	cout<<formula<<endl;

   StatDialogMVAEffs* gGui = new StatDialogMVAEffs(gClient->GetRoot(), 1000, 1000);

	gGui->SetBkgPurity(purB.Atof());

   TFile* file = TMVAGlob::OpenFile( fin );
   gGui->ReadHistograms(file);
   gGui->SetFormula(formula);
   gGui->UpdateSignificanceHists();
   gGui->DrawHistograms();
   gGui->RaiseDialog();   
}
